c_ = sparse(118,1);
c_(1) = 1;
b_ = sparse(95,1);
b_(44:44) = 1.0;
b_(85:85) = 1.0;
A_ = sparse(95, 118);
A_(1:1, 2:2) = 1.0; A_(1:1, 45:45) = 1.0; A_(1:1, 1:1) = -1.0;
A_(2:2, 46:46) = gamma; A_(2:2, 45:45) = -1.0;
A_(3:3, 46:46) = -1.0; A_(3:3, 47:56) = 1.0*ones(1, 10);
A_(4:13, 5:14) = 1.0*speye(10, 10); A_(4:13, 25:34) = 1.0*speye(10, 10); A_(4:13, 47:56) = -1.0*speye(10, 10);
A_(14:23, 57:66) = -1.0*speye(10, 10); A_(14:23, 5:14) = 1.0*speye(10, 10); A_(14:23, 15:24) = -1.0*speye(10, 10);
A_(24:33, 67:67) = 1.0*ones(10, 1); A_(24:33, 68:77) = 1.0*speye(10, 10); A_(24:33, 57:66) = -1.0*speye(10, 10);
A_(34:43, 78:78) = 1.0*ones(10, 1); A_(34:43, 79:88) = -1.0*speye(10, 10); A_(34:43, 68:77) = -1.0*speye(10, 10);
A_(44:44, 78:78) = 1.0;
A_(45:54, 3:4) = X; A_(45:54, 79:88) = -1.0*speye(10, 10);
A_(55:64, 89:98) = -1.0*speye(10, 10); A_(55:64, 25:34) = 1.0*speye(10, 10); A_(55:64, 35:44) = -1.0*speye(10, 10);
A_(65:74, 67:67) = -1.0*ones(10, 1); A_(65:74, 99:108) = 1.0*speye(10, 10); A_(65:74, 89:98) = -1.0*speye(10, 10);
A_(75:84, 78:78) = 1.0*ones(10, 1); A_(75:84, 109:118) = 1.0*speye(10, 10); A_(75:84, 99:108) = -1.0*speye(10, 10);
A_(85:85, 78:78) = 1.0;
A_(86:95, 3:4) = Y; A_(86:95, 109:118) = -1.0*speye(10, 10);
G_ = sparse(43, 118);
G_(1:1:10, 5:14) = -speye(10, 10);
G_(11:1:20, 15:24) = -speye(10, 10);
G_(21:1:30, 25:34) = -speye(10, 10);
G_(31:1:40, 35:44) = -speye(10, 10);
G_(41:1:41, 2:2) = -speye(1, 1);
G_(42:1:43, 3:4) = -speye(2, 2);
h_ = zeros(43, 1);
dims.q = [3];
dims.l = 40;
[x_codegen, y_, info_] = conelp(full(c_), G_, h_, dims, A_, full(b_));
t1 = x_codegen(1:1);
t0 = x_codegen(2:2);
a = x_codegen(3:4);
t6 = x_codegen(5:14);
t6z0 = x_codegen(15:24);
t11 = x_codegen(25:34);
t11z0 = x_codegen(35:44);
t2 = x_codegen(45:45);
t12 = x_codegen(46:46);
t7 = x_codegen(47:56);
t5 = x_codegen(57:66);
b = x_codegen(67:67);
t3 = x_codegen(68:77);
c1d0 = x_codegen(78:78);
t4 = x_codegen(79:88);
t10 = x_codegen(89:98);
t8 = x_codegen(99:108);
t9 = x_codegen(109:118);
ecos_optval = 1*info_.pcost;
